An Adaptive MAC Scheme to Achieve Throughput Optimization and Airtime Fairness for IEEE 802.11 Multirate Networks

2009 International Conference on Wireless Networks and Information Systems Pub Date : 2009-12-28 DOI:10.1109/WNIS.2009.83

Jianbing Mao, Y. Mao, S. Leng, Xiang Bai

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引用次数: 1

Abstract

In an IEEE 802.11 multirate network, the aggregate system throughput is unfavorably dominated by stations with the lowest data rate. To improve the performance, it is required to provide airtime fairness for stations regardless of their data rates. Unfortunately, the IEEE 802.11 MAC protocol DCF (Distributed Coordination Function) fails to satisfy this requirement. In this paper, we propose an adaptive MAC scheme, named Time Fairness Transmission Control (TFTC), to maximize the system throughput while maintaining airtime fairness among the competing stations. Specifically, making use of the information provided to each station by the carrier sensing mechanism, TFTC dynamically adjusts the transmission probabilities for stations transmitting at each data rate. As opposed to the previous works, our proposed scheme has strong ability to lead the network to work under near optimal state without the requirement of estimating the number of active stations in the network. Performance evaluation results show that the scheme is effective in achieving near to the theoretical maximum system throughput and providing time fair channel allocation among stations with different data rates.

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一种实现IEEE 802.11多速率网络吞吐量优化和时延公平的自适应MAC方案

在IEEE 802.11多速率网络中，具有最低数据速率的站点对总体系统吞吐量不利。为了提高性能，需要为电台提供公平的通话时间，而不管它们的数据速率如何。不幸的是，IEEE 802.11 MAC协议DCF (Distributed Coordination Function)无法满足这一要求。在本文中，我们提出了一种自适应MAC方案，称为时间公平传输控制(TFTC)，以最大限度地提高系统吞吐量，同时保持竞争电台之间的播出时间公平性。具体地说，TFTC利用载波传感机制提供给每个站的信息，动态地调整以每个数据速率传输的站的传输概率。与以往的工作相比，我们提出的方案具有较强的能力，使网络在不需要估计网络中活动站数的情况下工作在接近最优状态。性能评估结果表明，该方案可以有效地实现接近理论最大系统吞吐量，并在不同数据速率的台站之间提供时间公平的信道分配。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2009 International Conference on Wireless Networks and Information Systems

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